Applied Surface Science, Vol.255, No.18, 8048-8053, 2009
Effect of natural and magnetic convections on the structure of electrodeposited zinc-nickel alloy
The effects of a magnetic field applied in a direction parallel or perpendicular to the cathode substrate plane, during electrodeposition process of Zn-Ni alloy have been investigated by means of chronoamperometric measurements, X-ray diffraction and EDX analysis. The modification of crystal orientation of the alloy by the superimposition of a high magnetic field is discussed for alloys with a content of nickel range 6-13 at%. Whatever the phase composition obtained without magnetic field, either gamma-Ni5Zn21 or a mixture of the g and zinc phases, which depends on the concentration of Ni2+ in the electrolyte bath, the preferential orientation (1 0 1) of the zinc phase is always favoured with perpendicular and parallel magnetic field. There is no saturation of this effect with amplitude of B up to 8 T. A study of different geometric configurations of the cathode, which induce more or less natural convection, consolidates these results. The structural modifications of Zn-Ni alloy electrodeposits are thus probably due to a magnetohydrodynamic effect. An additional phenomenon is observed in presence of a perpendicular applied magnetic field since the (3 3 0) preferential orientation of the gamma-Ni5Zn21 disappears with high values of B. (C) 2009 Elsevier B.V. All rights reserved.
Keywords:Zn-Ni alloy;Magnetic field;Electrodeposition;XRD;Magnetoelectrochemistry;Magnetohydrodynamics